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Phillips curve

The Phillips curve describes an empirical inverse relationship between the rate and the rate of change of nominal wages (or ) observed in aggregate economic . In his seminal 1958 study, economist A. W. Phillips analyzed from 1861 to 1957, plotting wage against to reveal a downward-sloping , which suggested a potential exploitable by policymakers to achieve lower at the cost of higher . This interpretation gained prominence in during the 1960s, influencing expansionary policies aimed at pushing below perceived levels. However, and independently critiqued the notion of a permanent in 1967–1968, arguing from first-principles that in the long run, the is vertical at the natural rate of , determined by real factors like labor market frictions rather than , with only short-run dynamics arising from lagged adjustments. The theory's predictions were vindicated empirically during the 1970s , when shocks and expansionary policies produced simultaneous high and , invalidating the short-run relationship and highlighting the accelerationist nature of expectations. Contemporary expectations-augmented versions, incorporating adaptive or , acknowledge a potentially flatter short-run , but recent indicate diminished s, rendering the a less reliable guide for central banks amid low persistence and structural shifts.

Origins

A.W. Phillips' Empirical Observation

In 1958, A.W. Phillips analyzed the relationship between unemployment rates and the rate of change of money wage rates using United Kingdom data from 1861 to 1957. He plotted annual observations of the percentage change in nominal hourly wage rates against the unemployment rate as a percentage of the labor force, revealing a consistent inverse association. Higher unemployment levels corresponded to subdued or negative wage growth, while low unemployment aligned with accelerating wage increases. The wage data derived from an index of hourly wage rates constructed by E.H. Phelps Brown and Sheila V. Hopkins, covering skilled and unskilled workers across industries. Unemployment estimates for 1861-1913 combined trade union unemployment percentages—adjusted for incomplete coverage—with supplementary historical records, yielding 52 observations for that pre-World War I period. For 1913-1948 and 1948-1957, Phillips incorporated official statistics, selecting targeted observations during wartime and postwar disruptions to represent non-cyclical shifts. The resulting scatterplot, particularly for the stable 1861-1913 interval, displayed points clustering around a downward-sloping, convex curve, with greater dispersion at low unemployment rates. Phillips fitted a non-linear to the pre-1914 data, given by \dot{w} + 0.90 = 9.638 u^{-1.394}, where \dot{w} denotes the percentage rate of change of money wage rates and u the rate in percent. This form implied that wage responses intensified as fell below approximately 5.5 percent, reflecting heightened labor market pressure. fluctuations traced counterclockwise loops along the curve, with expansions pushing observations upward and recessions downward, yet the envelope remained stable across nearly a century of data. This empirical pattern suggested a repeatable menu of outcomes linking wage inflation to unemployment levels, derived purely from historical correlations without invoking theoretical mechanisms or policy implications in the original observation.

Initial Policy Interpretations

In their 1960 paper "Analytics of Anti-Inflation Policy," published in the American Economic Review, and reframed A. W. ' wage-unemployment relation as a price-level -unemployment tradeoff, applying it to U.S. data spanning 1933–1957 and deriving an estimated curve with a slope of approximately -1.5 to -2.0 percent per percentage point of unemployment reduction. They posited that this relationship provided policymakers with a " of ," enabling governments to select preferred combinations of unemployment and rates through fiscal and monetary , such as increasing to move rightward along the curve toward lower unemployment at the expense of higher . This interpretation integrated the Phillips relation into Keynesian macroeconomic frameworks, suggesting a short-run policy instrument for stabilizing output and without immediate inflationary spirals, as long as remained moderate (e.g., below 5 percent for unemployment around 3 percent). Samuelson and Solow acknowledged potential instabilities, noting that institutional factors like union bargaining power or expectations could shift the curve upward over time, but argued it nonetheless offered practical guidance for countering recessions or curbing via targeted adjustments. Empirical validations in the early extended the curve to the U.S. period and other economies, including and several Western European nations, where studies reported similar inverse correlations—for example, a 1 percent drop associated with 2–3 percent higher wage or price in aggregated data from the . These findings, often using scatter plots and simple regressions on national statistics, reinforced among Keynesian economists for using the curve to guide policies, such as expansionary measures to exploit apparent tradeoffs during economic slack.

Theoretical Developments

Expectations-Augmented Formulation

In the late 1960s, and independently advanced the expectations-augmented formulation of the Phillips curve, positing that inflation expectations fundamentally alter the apparent short-run tradeoff between and observed in A.W. Phillips' original empirical relation. Friedman articulated this in his presidential address, "The Role of ," delivered in December 1967 and published in March 1968, where he introduced the concept of a "" determined by real economic factors such as labor market frictions, worker preferences, and institutional structures, rendering it invariant to the prevailing rate. Phelps developed parallel ideas earlier, notably in his 1967 analysis of Phillips curves incorporating adaptive expectations, arguing that workers form wage demands based on anticipated price changes, leading to a vertical long-run Phillips curve at the natural rate where expectations align with actual . Under this framework, short-run deviations below the natural rate can temporarily reduce unemployment through unanticipated inflation, as workers mistake nominal wage gains for real ones and firms expand output. However, as expectations adjust upward—typically with a lag—wage pressures intensify, shifting the short-run curve rightward and restoring unemployment to its natural level at a higher inflation rate, eliminating any sustainable tradeoff. This explained why expansionary policies, such as those pursued in the U.S. under the Kennedy-Johnson administration, yielded diminishing returns: attempts to hold unemployment persistently below the natural rate necessitated ever-accelerating inflation to continually surprise agents, as steady inflation would fully incorporate into expectations, neutralizing the stimulus. Friedman's address explicitly warned that such policies risked an inflationary spiral without permanent employment gains, a view initially resisted in Keynesian-dominated academia but grounded in microfoundations of individual optimization rather than aggregate correlations. Empirical developments in the U.S. late 1960s provided motivation for this shift, as the original Phillips relation faltered amid rising inflation without commensurate unemployment reductions. From 1965 to 1969, the unemployment rate declined from 4.5% to 3.5%, yet consumer price inflation accelerated from 1.6% to 5.5%, defying expectations of stabilizing or decelerating price growth at low unemployment levels implied by the unmodified curve. This pattern, driven by fiscal expansion (Vietnam War spending and Great Society programs) alongside loose monetary policy, highlighted adaptive expectations: workers and firms increasingly anticipated higher prices, embedding them into contracts and pricing, which eroded the inverse relationship without delivering sustained low unemployment. Phelps and Friedman's formulation causally attributed this to expectation dynamics rather than structural breakdowns, emphasizing that policy-induced surprises could exploit the curve short-term but invited instability long-term.

Incorporation of Rational Expectations

The incorporation of rational expectations into the Phillips curve framework emerged in the 1970s as part of the new classical critique of Keynesian , emphasizing that economic agents form expectations efficiently using all available information, including knowledge of systematic policy rules. This approach, pioneered by economists like Robert Lucas and Thomas Sargent, argued that traditional econometric models of the Phillips curve failed to account for how agents' behavioral parameters shift in response to policy changes, rendering predictions unreliable under altered regimes. In his 1976 paper, Lucas specifically critiqued the wage-price sector models underlying the Phillips curve, noting that empirical relationships observed under one policy (e.g., low commitments) would not hold if policymakers shifted to expansionary measures, as workers and firms would rationally anticipate higher and adjust nominal contracts accordingly, neutralizing intended real effects. Under rational expectations, the short-run Phillips curve reflects temporary deviations from the natural unemployment rate driven solely by unanticipated inflation shocks, as agents cannot be systematically "fooled" by predictable policy actions. If monetary authorities attempt to exploit the curve by engineering steady inflation to reduce unemployment, agents incorporate this into their expectations, leading to immediate wage and price adjustments that restore equilibrium at the natural rate without output gains. This results in a vertical long-run Phillips curve, where inflation can persist at any rate but unemployment remains anchored at its natural level, absent surprises. Empirical breakdowns of the original Phillips trade-off during the 1970s stagflation, with rising inflation and unemployment coexisting, lent support to this view, as adaptive expectations models failed to explain accelerating inflation without corresponding employment benefits. The implications underscored a preference for credible, rules-based monetary frameworks over discretionary interventions, as systematic attempts to trade for lower prove futile and potentially destabilizing due to agents' forward-looking behavior. New classical models thus predicted that only random or unanticipated errors could temporarily shift output, but predictable rules—like a fixed growth rate—would minimize such by aligning expectations with reality, avoiding the inflationary biases inherent in discretionary optimism. This critique shifted macroeconomic debate toward microfounded models where expectations endogeneity precludes exploitable trade-offs, influencing practices toward and transparency by the 1980s and 1990s.

New Keynesian Extensions

New Keynesian models, emerging in the , incorporated of nominal rigidities to rationalize a short-run downward-sloping Phillips curve, preserving trade-offs absent in frictionless new classical frameworks. These extensions derive the curve from optimizing agents facing costs to adjusting nominal prices or wages, generating inertia in inflation dynamics that links current output gaps to expected future inflation and real marginal costs. A foundational rigidity mechanism is Calvo-style staggered , where firms face a constant probability of resetting prices each period, implying that only a fraction adjust optimally while others maintain prior levels, yielding a New Keynesian Phillips curve of the form \pi_t = \beta E_t \pi_{t+1} + \kappa (y_t - y_n), with \kappa capturing the to output deviations from levels. Complementary models posit small fixed costs to price changes, causing firms to keep prices unchanged most periods and adjust infrequently, which—despite micro-level rigidity—produces aggregate inflation dynamics approximating the New Keynesian form but with potentially steeper slopes for certain shocks. Such rigidities extend to wages, where nominal wage stickiness raises real marginal costs during expansions, influencing the curve's slope; models with both price and wage frictions, often via Calvo or Rotemberg adjustment costs, show that greater wage rigidity relative to prices can steepen the short-run by slowing real wage responses to pressures. These elements integrate into (DSGE) models, embedding the Phillips curve within forward-looking structures to simulate impacts on and output stabilization. Central banks employ these for counterfactual , though the precise slope remains sensitive to assumed rigidity parameters and selection effects in price-setting data.

Mathematical Representations

Original and Wage-Based Models

In 1958, A.W. analyzed historical data on and nominal changes in the , spanning periods from 1861 to 1913 and 1913 to 1948, excluding wartime distortions. He identified a stable inverse relationship, where higher rates corresponded to lower rates of increase, and vice versa. fitted a nonlinear to the data using the functional form y + a = b x^c, or in logarithmic terms \log(y + a) = \log b + c \log x, where y denotes the rate of change of rates per annum, x is the rate as a of the labor , a adjusts for a minimum change , b is a scale parameter, and c captures the convexity (typically negative, indicating ). For the pre-1914 period, the estimated parameters yielded approximately y = -0.3 + 1.5 / U^{0.5} in simplified hyperbolic form, reflecting stronger pressure at low levels. This wage-based model posits that the rate of nominal inflation, \Delta w / w, depends inversely on the rate u, often stylized as \Delta w / w = g^{T} - f(u), where g^{T} represents a target or wage growth rate (potentially tied to trends), and f(u) is a positive increasing of , implying df/du > 0. The mechanism stems from labor market dynamics: low intensifies worker , driving wage demands upward, while high weakens it, moderating wage growth. ' analysis excluded explicit expectations, treating the relation as a reduced-form empirical regularity derived from pressures and excess for labor. To derive a price variant, early models linked changes to consumer via assumptions and pricing rules. Assuming a markup over unit labor costs, prices P satisfy P = \mu W / A, where \mu > 1 is the markup factor, W is the nominal , and A is labor . Taking percentage changes yields \pi = \Delta w / w - \Delta a / a, where \Delta a / a is growth; if growth is stable and markups , \pi \approx \Delta w / w - \overline{\Delta a / a}. Substituting the relation gives \pi = g^{T} - \overline{\Delta a / a} - f(u), translating the unemployment- into an unemployment- . This derivation assumes no variability in markups or beyond trend, focusing on -push as the primary driver. Early wage-based formulations implicitly incorporated adaptive expectations by assuming agents adjust wage demands based on recent inflation experience, though Phillips' original specification remained static without formal expectation dynamics. Subsequent interpretations, such as those in the 1960s, formalized this by positing expected inflation \pi^e enters wage setting as \Delta w / w = \pi^e - f(u) + constants, with \pi^e formed adaptively as a weighted average of past inflation. However, the core original model prioritized empirical wage-unemployment linkages over explicit expectation mechanisms.

Price-Level and Accelerationist Variants

The price-level variant relates unanticipated changes in the to deviations in output from its potential level, which connect to gaps through . This formulation derives from the Lucas function, where Y_t = Y_n + a (P_t - P^e_t), indicating that positive price surprises stimulate output above natural levels by misleading agents about relative prices. Substituting approximation (Y_t - Y_n)/Y_n \approx -\beta (u_t - u_n) yields P_t - P^e_t \approx -(\alpha/\beta) (u_t - u_n), establishing an inverse link between price-level surprises and relative to its natural rate. This static relation underscores short-run non-neutrality of but assumes expectations anchor the expected . The accelerationist variant emerges by incorporating adaptive expectations into the expectations-augmented framework, treating lagged inflation as a proxy for expected inflation: \pi^e_t = \pi_{t-1}. Substituting into \pi_t = \pi^e_t - \alpha (u_t - u_n) produces \pi_t - \pi_{t-1} = -\alpha (u_t - u_n), or \Delta \pi_t = -\alpha (u_t - u_n), where u_n denotes the non-accelerating inflation rate of unemployment (NAIRU). This differenced equation reveals that deviations of unemployment below the NAIRU generate positive acceleration in inflation, as persistent gaps erode real wages and fuel wage-price spirals unless offset by rising nominal growth. Conversely, unemployment above the NAIRU decelerates inflation toward disinflation or deflation. The adaptive proxy for expectations reflects backward-looking behavior, where agents form predictions from recent inflation history rather than forward rational updates. Robert Gordon's triangle model extends the accelerationist form by decomposing into inertial, demand, and supply components, addressing limitations from omitted shocks. captures persistence via weighted lags, such as $0.5 \pi_{t-1} + 0.5 \Delta p_{t-1}, approximating adaptive expectations; demand-pull enters negatively via the gap; and supply shocks include terms for unit labor costs, prices, and costs. First specified in 1982, the model estimates show supply shocks explaining much of volatility, with the full specification outperforming simpler accelerationist versions in through explicit shock controls. This augmentation preserves the core - while allowing vertical shifts from exogenous factors, linking directly to dynamics under varying shock regimes.

Modern Non-Linear Forms

In response to the surge observed in the United States following the , economists have proposed non-linear formulations of the Phillips curve, particularly the inverse-L (Inv-L) New Keynesian Phillips curve, which features a flat slope at moderate rates but steepens sharply when labor markets tighten beyond a . This corresponds to a point where the vacancy-to- (V/U) ratio exceeds historical norms, typically around 1.5-2.0 in U.S. data from 2021-2022, triggering heightened sensitivity to pressures due to reduced matching in labor markets. The Inv-L form is piecewise-linear, with dynamics approximated as \pi_t = \pi_t^e + \kappa (y_t - y_n) + u_t below the (where \pi_t is , \pi_t^e expected , y_t - y_n the , and u_t a supply shock), but with amplified \kappa above it, reflecting nonlinear price-setting behaviors under extreme tightness. Empirical estimates applied to U.S. data from 2021 onward demonstrate that the Inv-L curve outperforms linear specifications in capturing asymmetric responses, where rose to 9.1% in June 2022 amid V/U ratios peaking at 2.1, yet occurred without deep recessions as tightness eased below the threshold by mid-2023. This non-linearity integrates dynamics, positing that once the threshold is crossed—evidenced by flattening and outward shifts from matching frictions—inflation becomes more prone to acceleration from both and supply shocks, as firms face binding and input constraints. Studies fitting the model to (FRED) series on CPI , , and job vacancies confirm the threshold's role, with the Phillips curve slope increasing by factors of 2-5 in tight conditions, explaining why pre-2020 flatness gave way to steeper trade-offs. These modern adaptations emphasize labor market tightness measures like V/U over traditional unemployment rates, arguing that vacancies better slack in search-and-matching frameworks, with threshold effects validated through structural vector autoregressions on post-2020 episodes. While the Inv-L specification aligns with observed without unemployment spikes above 4.5% in 2023-2024, critics note potential over-reliance on pandemic-specific shocks, urging further testing against supply-driven episodes. Overall, this non-linear approach restores policy relevance to the Phillips curve by highlighting regime-dependent trade-offs, informing strategies to avoid crossing thresholds during expansions.

Empirical Evidence

Pre-1970s Correlations

In 1958, A. W. examined data on rates and the rate of change of money wage rates in the United Kingdom spanning 1861 to 1957, identifying a consistent inverse correlation. Phillips constructed scatter plots for three subperiods—1861–1913, 1913–1948, and 1948–1957—revealing that higher rates were associated with lower or negative wage growth, while low coincided with rapid wage increases up to approximately 10% annually. The data points clustered around a fitted nonlinear curve, with the post-World War II segment (1948–1957) demonstrating a particularly tight fit due to reduced variability in unemployment and wage changes compared to earlier eras. Economists and extended this analysis to the in 1960, observing a similar negative relationship between and changes in the using data from roughly 1948 to 1957. Their indicated that rates around 3% aligned with price increases of 4–5%, while rates near 5–6% corresponded to or , suggesting a menu of policy choices along the curve. This pattern persisted in U.S. economic expansions during the and early , such as 1955–1957 and 1961–1965, when declined to 4% or below amid moderate inflation rates of 1–2%. These pre-1970s correlations were derived from limited postwar samples, often spanning fewer than 20 annual observations, which constrained statistical robustness and failed to capture longer-term dynamics. Moreover, the analyses omitted the influence of inflationary expectations, treating wage and price adjustments as primarily responsive to current unemployment levels without accounting for adaptive or forward-looking behaviors.

Stagflation and 1970s Breakdown

The phenomenon of in the United States during the 1970s, characterized by concurrent high and high , empirically challenged the stability of the short-run Phillips curve tradeoff. Triggered primarily by adverse supply shocks, these episodes demonstrated that external factors could drive both variables upward simultaneously, rather than exhibiting the expected inverse relationship. The first major episode followed the oil embargo imposed on October 17, 1973, in response to U.S. support for during the , which quadrupled global oil prices from approximately $3 per barrel to nearly $12 per barrel by early 1974. This supply disruption contributed to a from to March 1975, with U.S. unemployment rising from 4.8% in the second half of 1973 to nearly 9% by the second quarter of 1975, while consumer price inflation accelerated from 6.2% in 1973 to a peak of 12.2% in November 1974. Such data points plotted positively sloped trajectories on inflation-unemployment scatterplots, contradicting the downward-sloping observed in earlier postwar decades. A second oil shock in 1979, stemming from the and subsequent production disruptions, further intensified , with prices more than doubling between April 1979 and April 1980. This led to nearing 14.5% by summer 1980 and surpassing 7% initially, escalating to 10.8% by December 1982 amid the ensuing . These events provided evidence supporting the expectations-augmented Phillips curve framework, as persistent supply shocks elevated expectations, shifting the curve upward and eroding any exploitable tradeoff between and . Federal Reserve policy under Chairman Arthur Burns contributed to the persistence of by prioritizing reduction over control, often accommodating shocks through expansionary monetary measures in line with perceived Phillips curve dynamics. This approach, which included maintaining low interest rates despite rising prices, amplified inflationary pressures rather than mitigating them, as policymakers underestimated the role of accelerating expectations in wage and price setting. The cumulative result falsified reliance on a short-run , highlighting the vulnerabilities of demand-management strategies to supply-side disturbances.

Post-1980s Flattening and Great Moderation

Following the aggressive monetary tightening under Chairman from 1979 to 1982, which reduced U.S. from a peak of 13.5% in 1980 to around 3.2% by 1983, empirical analyses revealed a marked flattening of the Phillips curve slope starting in the early 1980s. Reduced-form estimates showed the responsiveness of to the gap declining significantly, with structural slope coefficients weakening even after accounting for in measures. This flattening coincided with the , a period from roughly 1984 to 2007 characterized by subdued macroeconomic volatility, including standard deviations dropping to about 1.2% annually compared to over 3% in the prior two decades, despite persistent fluctuations in between 4% and 7%. Business cycles continued, but the trade-off between deviations and responses diminished, as evidenced by Phillips curve regressions yielding near-zero or statistically insignificant coefficients on output or unemployment gaps in post-1980s data. Key causal factors included the establishment of central bank credibility through sustained high real interest rates during disinflation, which anchored long-term inflation expectations near 2-3% and reduced nominal rigidities' impact on price setting. Globalization intensified competition in goods markets, suppressing price markups and insulating consumer inflation from domestic labor cost pressures, while improved monetary policy rules minimized output gap persistence. These dynamics weakened the aggregate supply curve's slope without eliminating short-run adjustments entirely. In contrast to the price Phillips curve's pronounced flattening, wage-based variants retained some slope during the , with estimated coefficients on gaps in wage equations remaining negative and significant in subsamples from 1986 to 2007, though smaller than pre-1970s levels (e.g., pass-through coefficients dropping to near 0.1 from over 0.5). This resilience reflected ongoing backward-looking wage bargaining tied to labor market tightness, but muted transmission to due to gains and competitive pressures offsetting labor increases. Empirical decompositions confirmed that while wage- correlations persisted, structural changes in price formation—such as forward-looking expectations—dampened the overall - linkage.

Post-2008 and 2020s Dynamics

Following the 2008 global financial crisis, the U.S. rate peaked at 10.0% in October 2009, yet core PCE hovered around 1% through 2010-2015 without the sharp or predicted by traditional accelerationist Phillips curve models. This phenomenon, termed "missing disinflation," highlighted an apparent breakdown in the expected inverse relationship, as slack in labor markets failed to exert downward pressure on prices. Empirical analyses using confirmed a marked flattening of the Phillips curve slope during 2008-2019, with estimates near zero, implying minimal responsiveness to gaps. Cross-state data provide nuanced evidence, revealing a flat aggregate Phillips curve but steeper relations for nontradable goods prices, which mitigated aggregate disinflation pressures during the Great Recession. However, panel data from U.S. sectors and EU countries indicate persistent flattening post-crisis, particularly in poorer economies, underscoring structural shifts like diminished wage pass-through or anchored inflation expectations. From 2008 to 2019, U.S. CPI inflation averaged 1.8% annually despite prolonged high unemployment averaging 7.4%, further evidencing the curve's diminished slope compared to pre-1980s eras. In the 2020s, the Phillips curve exhibited non-linear dynamics during the COVID-19 recovery, with U.S. CPI inflation surging to 9.1% in June 2022 amid unemployment dropping to 3.5% by late 2021, defying expectations of stability from low slack alone. Tight labor markets, reflected in job vacancies exceeding 11 million in 2022, drove persistent inflation, consistent with a steepening at low unemployment levels. Empirical models incorporating non-linearity, such as the inverse-L shaped Phillips curve, capture this asymmetry: flat when unemployment is high (explaining post-GFC stability) but sharply upward-sloping at low rates, aligning with the 2020s surge where output gaps turned positive. Regional and sectoral variations reinforce non-linearity, with cross-city data showing fragile but present steepness in tight markets, while aggregate U.S. evidence supports the inverse-L form over linear alternatives for explaining both missing and recent reinflation. CEPR analyses of Beveridge and Phillips curves highlight supply disruptions amplifying demand-driven pressures in low- environments, though debates persist on the robustness of non-linearity to alternative specifications like forward-looking expectations. By 2024, as stabilized near 4.1% and fell to 2.5%, the curve's steep segment appeared to moderate, but empirical fits favor models accommodating asymmetry over symmetric linear tradeoffs.

Criticisms and Debates

Challenges to Short-Run Tradeoff

Empirical analyses of the short-run Phillips curve have revealed significant variability in its slope across different time periods and economic conditions, casting doubt on its reliability for exploitation. For instance, rolling-window estimates over 10-year periods indicate in the curve's slope for both the and , with steeper responses in some eras and near-flatness in others. Studies using disaggregated data from U.S. states further suggest the slope has been consistently small, even during high- episodes like the early 1980s, implying limited responsiveness of to unemployment gaps. This temporal arises partly from evolving economic structures, such as changes in labor market rigidities or , which alter the transmission from demand pressures to wage and price dynamics, rendering the tradeoff non-stationary. Forward-looking behavior under further undermines the exploitability of any short-run tradeoff, as economic agents incorporate anticipated policy actions into their decisions. imply that workers and firms focus on adjusted for expected , neutralizing systematic attempts to engineer lower via demand stimulus. Consequently, predictable monetary expansions fail to generate sustained expectational errors needed for the to operate, as agents adjust contracts and preemptively, leading to immediate inflationary pressures without real output gains. This critique, formalized in models where policy rules alter behavioral parameters, highlights that historical correlations may reflect transient surprises rather than a stable mechanism amenable to manipulation. Supply-side factors often dominate business cycles, decoupling from in ways that invalidate demand-centric tradeoffs. Adverse supply shocks, such as surges, elevate costs independently of labor market slack, shifting the short-run curve upward and generating simultaneous rises in and . These episodes demonstrate that real disturbances, rather than demand imbalances, can drive inflationary dynamics, with empirical instances showing accelerating amid stable or rising due to slowdowns or input cost spikes. In such contexts, the relation proves unreliable, as causal chains from supply constraints override any inverse linkage, emphasizing the need for policies addressing structural impediments over fine-tuning.

Long-Run Neutrality and Verticality

In macroeconomic theory, the long-run Phillips curve is posited to be vertical at the natural rate of unemployment, implying no sustainable tradeoff between inflation and unemployment. This follows from the principle of monetary neutrality, whereby changes in the money supply or its growth rate affect nominal variables such as the price level proportionally but leave real variables like output and employment unchanged once expectations fully adjust. Real economic output and unemployment are determined by supply-side factors, including labor market institutions, technological progress, demographics, and productivity, independent of the inflation rate in steady state. Attempts to maintain unemployment below the natural rate through expansionary policy lead only to accelerating inflation as wage and price setters incorporate higher expected inflation, shifting the short-run curve upward until equilibrium restores the natural rate. The natural rate hypothesis, formalized by and , underscores this verticality: unemployment fluctuates around its non-accelerating rate () due to real frictions, but systematic deviations via prove illusory in the long run. In the expectations-augmented Phillips curve, \pi = \pi^e - \beta (U - U^*), long-run equilibrium occurs where actual and expected align (\pi = \pi^e), yielding U = U^* regardless of the inflation level. This debunks any permanent tradeoff as an artifact of omitted expectations in early empirical specifications; pre-1970s correlations reflected unanticipated surprises, not a stable long-run relation. Friedman's analysis highlighted that ignoring adaptive or biases estimates toward a downward-sloping long-run curve, whereas full adjustment renders it vertical. Empirical investigations support this verticality through long-horizon analyses. Time-series studies using U.S. data from 1955 to 1994 find little evidence against money neutrality, estimating a very steep long-run Phillips curve slope consistent with near-verticality, as permanent changes do not persistently alter . Cross-country comparisons post-1970s reveal no systematic inverse relation; nations with chronic high , such as those in during the 1980s (averaging 100-500% annual rates), experienced rates comparable to or higher than low- peers like the U.S. (around 5-6%), attributable to policy-induced instability rather than beneficial real effects. Disinflations, like the U.S. under from 1980-1982, temporarily raised but returned it to natural levels without reverting to prior , affirming convergence to U^*. These patterns hold in models, where shocks to do not Granger-cause permanent shifts in . Challenges to strict verticality, such as claims of or downward slopes from recent ECB analyses, often rely on short samples or model misspecifications that conflate temporary supply shocks with long-run dynamics, but aggregate evidence favors neutrality. For instance, over 1960-2020, unemployment rates hovered near estimated natural levels (4-6%) despite variances from 2% to double digits, with no sustained reductions from higher average . This underscores that perceived long-run tradeoffs stem from econometric illusions, like spurious correlations ignoring structural breaks or formation, rather than causal impacts on real .

Policy Implications and Monetarist Alternatives

Policymakers during the increasingly relied on the Phillips curve to justify expansionary fiscal and monetary policies aimed at sustaining below its rate, interpreting the observed inverse relationship between and as a stable menu of policy choices. This approach, exemplified by the Kennedy-Johnson administration's tax cuts in 1964 and subsequent accommodation under Chairman , contributed to rising inflationary pressures as demand stimulus overheated the economy without addressing factors. By the late , had climbed from around 1% in 1960 to over 5% by 1969, setting the stage for the double-digit surges of the 1970s amid oil shocks and wage-price controls, as adaptive expectations eroded any short-term gains in employment. critiqued this activism in his 1968 presidential address, arguing that attempts to exploit the curve would only accelerate without permanent reductions in , a prediction borne out by the subsequent . Monetarists, led by , rejected discretionary demand management in favor of predictable rules to anchor expectations and avoid the time-inconsistency problems inherent in activist policies. proposed that central banks increase the supply at a fixed annual rate—typically 3 to 5 percent, calibrated to long-term real output and velocity —to maintain constancy without interfering in real economic variables. This approach emphasized that monetary policy's primary role is controlling through steady nominal anchor provision, rather than output gaps presumed by Phillips curve frameworks, thereby mitigating political incentives for inflationary bias during cycles. Empirical analysis of pre-1980s data supported monetarists' view that erratic , not unemployment targeting, drove the Great Inflation's volatility. In contrast to Phillips curve-inspired interventions, monetarist prescriptions aligned with a broader emphasis on enhancing supply-side for sustainable gains, cautioning that demand-side manipulations yield only temporary illusions of at the cost of eroding . Friedman's framework, informed by historical episodes like the post-World War I inflation, underscored that rules constraining discretion promote long-run , allowing market signals to guide more effectively than government-engineered tradeoffs. This perspective influenced the shift toward inflation-focused mandates at central banks post-1970s, prioritizing nominal stability over illusory real targets.

Contemporary Relevance

Applications in Inflation Targeting

Central banks employing inflation targeting regimes, such as the and the , integrate variants of the Phillips curve into their macroeconomic models to forecast dynamics and assess the inflationary implications of economic . These models typically relate deviations of from target to output or gaps, derived from the curve's short-run , enabling policymakers to evaluate how deviations from potential output—proxied by gaps relative to estimates of the non-accelerating rate of ()—influence price pressures. For instance, the ECB's post-crisis analyses have affirmed the presence of a Phillips curve relationship in the euro area, with responding to cyclical conditions around a slope consistent with the 2% target, informing medium-term projections used in decision-making. The Phillips curve informs the , a reaction function that prescribes adjustments based on gaps and s, where the latter captures the curve's linkage between real activity and . In this framework, a positive —indicating pressures exceeding supply—signals potential above target, prompting rate hikes to restore balance, while the curve's determines the sensitivity of responses to gap magnitudes. Central banks like the apply this in real-time assessments, with estimates feeding into prescriptions that have guided post-1990s stabilization efforts, though the rule's efficacy assumes a stable curve . NAIRU estimates, central to modern Phillips curve applications, serve as anchors for gauging sustainable levels without accelerating , directly shaping strategies. The Federal Reserve's Board of Governors produces real-time series, which policymakers reference to interpret unemployment rates below estimated (typically 4.5-5% in recent vintages) as indicative of building wage and price pressures, influencing forward guidance on rate paths. Similarly, the ECB incorporates -like concepts in its assessments for the euro area, using them to calibrate policy toward the symmetric 2% aim adopted in 2021. Despite empirical flattening, particularly in low-inflation environments since the 2000s, central banks retain Phillips curve elements in dynamic stochastic general equilibrium (DSGE) models for scenario analysis and forward guidance, emphasizing anchored expectations to mitigate reduced slope responsiveness. A shallower curve implies diminished inflation sensitivity to slack, allowing greater output stabilization before price risks emerge but complicating disinflation if pressures materialize, as seen in anchored-expectation regimes where policy relies more on credibility than gap closures. Critics note this persistence despite evidence of nonlinearity at low inflation rates (below 3%), where the curve bends flatter, underscoring reliance on expectations over traditional tradeoffs.

Lessons from Recent Inflation Surges

The 2021–2023 global surge, particularly in the United States where the reached 9.1% year-over-year in June amid rates hovering around 3.5–3.8%, deviated markedly from the short-run Phillips curve's predicted inverse relationship between and slack. Empirical decompositions indicate that supply shocks accounted for the majority of the price acceleration, including energy cost surges triggered by Russia's February of , which elevated prices above $100 per barrel for much of , and lingering COVID-19-induced bottlenecks in semiconductors and shipping. Labor market frictions, driven by excess retirements, skill mismatches, and reduced inflows post-2020, created persistent shortages—evident in job vacancy rates exceeding 7% of the labor force in —further insulating from low signals typically associated with overheating. These real-side constraints underscored how Phillips curve models emphasizing output or gaps can understate inflationary persistence when supply elasticities are low, as responses amplified bottlenecks rather than reflecting pure excess . Fiscal expansions exacerbated the episode by boosting demand against constrained supply, with structural estimates attributing roughly half of the contribution to —equivalent to 2–3 percentage points of the peak rise—to measures like the $1.9 trillion American Rescue Plan signed into law on March 11, 2021. Critics of demand-centric Phillips interpretations, including analyses from the Peterson , argue that such policies overlooked capacity limits, leading to avoidable overheating; for instance, econometric models show fiscal multipliers were amplified 1.5–2 times higher under supply disruptions than in normal conditions. expectations, per surveys, spiked to 5.4% for one-year horizons in June 2022 but stabilized without full de-anchoring from the Federal Reserve's 2% target, thanks to credible forward guidance—though near-term unanchoring risks materialized in sectors like housing and food, prompting wage demands that fed secondary price pressures. This partial unanchoring highlighted vulnerabilities in expectation-formation models embedded in modern Phillips frameworks, where backward-looking behaviors temporarily steepened the curve's slope amid perceived policy laxity. Central bank responses revealed policy pitfalls of delayed action, as the Federal Open Market Committee's maintenance of near-zero federal funds rates through February 2022 allowed inflation to embed, contrasting with earlier warnings from economists like Larry Summers on fiscal-demand mismatches. Subsequent aggressive tightening—raising rates by 525 basis points from March 2022 to July 2023, reaching 5.25–5.50%—drove core PCE inflation down to 2.6% by late 2024 with unemployment rising only modestly to 4.1% by mid-2023, mirroring Paul Volcker's 1979–1982 hikes that broke 1970s stagflation through sustained restriction despite initial recessionary costs. These outcomes affirm that Volcker-style credibility restoration via prompt, data-dependent hikes outperforms gradualism in supply-shock environments, where prolonged accommodation risks entrenching expectations and amplifying Phillips deviations; vector autoregression evidence supports that a 100 basis point rate increase reduced inflation by 1–2 points within 18 months without proportional unemployment spikes when anchored by supply normalization. Overall, the surge cautions against overinterpreting low unemployment as disinflationary guarantee, urging integration of supply diagnostics and fiscal-monetary coordination to mitigate non-demand drivers overlooked by tradeoff-focused models.